Windows2003-3790/windows/appcompat/shims/lib/cstringapi.cpp

360 lines
9.6 KiB
C++
Raw Normal View History

2001-01-01 00:00:00 +01:00
/*++
Copyright (c) 2001 Microsoft Corporation
Module Name:
CStringPI.cpp
Abstract:
Win32 API wrappers for CString
Created:
02/27/2001 robkenny Created
08/14/2001 robkenny Moved code inside the ShimLib namespace.
--*/
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windows.h>
#include "ShimLib.h"
#include "Shlobj.h"
#include "StrSafe.h"
namespace ShimLib
{
/*====================================================================================*/
/*++
Read a registry value into this CString.
REG_EXPAND_SZ is automatically expanded and the type is changed to REG_SZ
If the type is not REG_SZ or REG_EXPAND_SZ then csValue is unmodified
and *lpType returns the value of the key.
--*/
LONG RegQueryValueExW(
CString & csValue,
HKEY hKeyRoot,
const WCHAR * lpszKey,
const WCHAR * lpszValue)
{
HKEY hKey;
LONG success = RegOpenKeyExW(hKeyRoot, lpszKey, 0, KEY_READ, &hKey);
if (success == ERROR_SUCCESS)
{
DWORD ccbValueSize = 0;
DWORD dwType;
success = ::RegQueryValueExW(hKey, lpszValue, 0, &dwType, NULL, &ccbValueSize);
if (success == ERROR_SUCCESS)
{
if (dwType == REG_SZ || dwType == REG_EXPAND_SZ)
{
// MSDN says: Buffer might not be null terminated, so be very careful
//
// Of course, RegQueryValueEx does have a hack that takes care of the EOS,
// but only if the buffer is large enough, which of course it never is
// when you query for the size of the buffer!
//
// So, the moral of the story is don't trust RegQueryValueEx
// to properly terminate the string.
// cchBuffer is the number of characters, rounded up for paranoia
// Can we ever get an odd number of bytes for a REG_SZ?
DWORD cchBuffer = (ccbValueSize + 1) / sizeof(WCHAR);
WCHAR * lpszBuffer = NULL;
CSTRING_TRY
{
// Grab an extra character in case the reg value doesn't have EOS
// We are being extra cautious
lpszBuffer = csValue.GetBuffer(cchBuffer + 1);
// Recalculate ccbValueSize based on the number of chars we just allocated.
// Notice that this size is 1 WCHAR smaller than we just asked for, this
// is so we'll always have room for 1 more character after the next call
// to RegQueryValueExW
ccbValueSize = cchBuffer * sizeof(WCHAR);
}
CSTRING_CATCH
{
// Close the registry key and pass the exception onto the caller.
::RegCloseKey(hKey);
CSTRING_THROW_EXCEPTION
}
success = ::RegQueryValueExW(hKey, lpszValue, 0, &dwType, (BYTE*)lpszBuffer, &ccbValueSize);
if (success == ERROR_SUCCESS)
{
// Make sure the registy value is still of the proper type
// It could have been modified by another process or thread....
if (dwType == REG_SZ || dwType == REG_EXPAND_SZ)
{
// Convert the data byte size into number of chars;
// if ccbValueSize is odd we'll ignore the last byte.
DWORD cchValueSize = ccbValueSize / sizeof(WCHAR);
// cchValueSize might count the EOS character,
// (ReleaseBuffer expects the string length)
if (cchValueSize > 0 && lpszBuffer[cchValueSize-1] == 0)
{
cchValueSize -= 1;
// cchValueSize now contains the string length.
}
// ReleaseBuffer ensures the string is properly terminated.
csValue.ReleaseBuffer(cchValueSize);
if (dwType == REG_EXPAND_SZ)
{
CSTRING_TRY
{
csValue.ExpandEnvironmentStringsW();
}
CSTRING_CATCH
{
// Error expanding the environment string
success = ERROR_NOT_ENOUGH_MEMORY;
}
}
}
}
if (success != ERROR_SUCCESS)
{
csValue.ReleaseBuffer(0);
}
}
else
{
// Key is of the wrong type, return an error
success = ERROR_INVALID_PARAMETER;
}
}
::RegCloseKey(hKey);
}
if (success != ERROR_SUCCESS)
{
csValue.Truncate(0);
}
return success;
}
/*====================================================================================*/
BOOL SHGetSpecialFolderPathW(
CString & csFolder,
int nFolder,
HWND hwndOwner
)
{
// Force the size to MAX_PATH because there is no way to determine necessary buffer size.
WCHAR * lpsz = csFolder.GetBuffer(MAX_PATH);
BOOL bSuccess = ::SHGetSpecialFolderPathW(hwndOwner, lpsz, nFolder, FALSE);
csFolder.ReleaseBuffer(-1); // Don't know the length of the resulting string
return bSuccess;
}
/*====================================================================================*/
CStringToken::CStringToken(const CString & csToken, const CString & csDelimit)
{
m_nPos = 0;
m_csToken = csToken;
m_csDelimit = csDelimit;
}
/*++
Grab the next token
--*/
BOOL CStringToken::GetToken(CString & csNextToken, int & nPos) const
{
// Already reached the end of the string
if (nPos > m_csToken.GetLength())
{
csNextToken.Truncate(0);
return FALSE;
}
int nNextToken;
// Skip past all the leading seperators
nPos = m_csToken.FindOneNotOf(m_csDelimit, nPos);
if (nPos < 0)
{
// Nothing but seperators
csNextToken.Truncate(0);
nPos = m_csToken.GetLength() + 1;
return FALSE;
}
// Find the next seperator
nNextToken = m_csToken.FindOneOf(m_csDelimit, nPos);
if (nNextToken < 0)
{
// Did not find a seperator, return remaining string
m_csToken.Mid(nPos, csNextToken);
nPos = m_csToken.GetLength() + 1;
return TRUE;
}
// Found a seperator, return the string
m_csToken.Mid(nPos, nNextToken - nPos, csNextToken);
nPos = nNextToken;
return TRUE;
}
/*++
Grab the next token
--*/
BOOL CStringToken::GetToken(CString & csNextToken)
{
return GetToken(csNextToken, m_nPos);
}
/*++
Count the number of remaining tokens.
--*/
int CStringToken::GetCount() const
{
int nTokenCount = 0;
int nNextToken = m_nPos;
CString csTok;
while (GetToken(csTok, nNextToken))
{
nTokenCount += 1;
}
return nTokenCount;
}
/*====================================================================================*/
/*====================================================================================*/
/*++
A simple class to assist in command line parsing
--*/
CStringParser::CStringParser(const WCHAR * lpszCl, const WCHAR * lpszSeperators)
{
m_ncsArgList = 0;
m_csArgList = NULL;
if (!lpszCl || !*lpszCl)
{
return; // no command line == no tokens
}
CString csCl(lpszCl);
CString csSeperator(lpszSeperators);
if (csSeperator.Find(L' ', 0) >= 0)
{
// Special processing for blank seperated cl
SplitWhite(csCl);
}
else
{
SplitSeperator(csCl, csSeperator);
}
}
CStringParser::~CStringParser()
{
if (m_csArgList)
{
delete [] m_csArgList;
}
}
/*++
Split up the command line based on the seperators
--*/
void CStringParser::SplitSeperator(const CString & csCl, const CString & csSeperator)
{
CStringToken csParser(csCl, csSeperator);
CString csTok;
m_ncsArgList = csParser.GetCount();
m_csArgList = new CString[m_ncsArgList];
if (!m_csArgList)
{
CSTRING_THROW_EXCEPTION
}
// Break the command line into seperate tokens
for (int i = 0; i < m_ncsArgList; ++i)
{
csParser.GetToken(m_csArgList[i]);
}
}
/*++
Split up the command line based on whitespace,
this works exactly like the CMD's command line.
--*/
void CStringParser::SplitWhite(const CString & csCl)
{
LPWSTR * argv = _CommandLineToArgvW(csCl, &m_ncsArgList);
if (!argv)
{
CSTRING_THROW_EXCEPTION
}
m_csArgList = new CString[m_ncsArgList];
if (!m_csArgList)
{
CSTRING_THROW_EXCEPTION
}
for (int i = 0; i < m_ncsArgList; ++i)
{
m_csArgList[i] = argv[i];
}
LocalFree(argv);
}
/*====================================================================================*/
/*====================================================================================*/
}; // end of namespace ShimLib